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Parameters interacting with mannose selection employed for the production of transgenic sugar beet
Authors:Morten Joersbo  Steen Guldager Petersen  Finn T Okkels
Institution:Danisco Biotechnology, Langebrogade 1, DK-1001 Copenhagen K, Denmark; Present address: DLF-Trifolium A/S, Højerupvej 31, DK-4660 Store Heddinge, Denmark
Abstract:The mannose selection system employs the phosphomannose isomerase (PMI) gene as selectable gene and mannose, converted to mannose-6-phosphate by endogenous hexokinase, as selective agent. The transgenic PMI-expressing cells have acquired the ability to convert mannose-6-phosphate to fructose-6-phosphate, while the non-transgenic cells accumulate mannose-6-phosphate with a concomitant consumption of the intracellular pools of phosphate and ATP. Thus, certain steps of mannose selection depend on the cells’ own metabolism which may be affected by a number of factors, some of which are studied here using Agrobacterium tumefaciens-mediated gene transfer to sugar beet cotyledonary explants. Four frequently employed saccharides (sucrose, glucose, fructose, and maltose) were tested at various concentrations and were found to interact strongly with the phytotoxic effect of mannose, glucose being able to counteract nearly 100% of an almost complete mannose-induced growth inhibition. Sucrose, maltose, and fructose also alleviated significantly the mannose-induced growth inhibition, but were 4-, 5-, and 7-fold less potent than glucose, respectively (calculated as hexose equivalents). The transformation frequencies were also dependent on the nature and concentration of the added carbohydrates, but in this respect sucrose resulted in the highest transformation frequencies, about 1.0%, while glucose and fructose gave significantly lower frequencies. The selection efficiencies were highest in the presence of maltose where no non-transgenic escapes were found over a range of concentrations. The effect of the light intensity was also investigated and the transformation frequencies were positively correlated to light intensity, although the relative impact of light on growth in the presence of mannose appeared not to be dependent on the mannose concentration. Additional phosphate in the selection media had a strong positive effect on the transformation frequencies, suggesting phosphate limitation during selection. The mannose selection system was found to be relatively genotype-independent, provided a slight optimization of the mannose concentrations during selection. Analysis of F1-offspring showed that all studied primary transformants resulted in PMI-expressing plantlets and that the segregational patterns were in accordance with expectations in at least 50% of the transformants, confirming the stable and active inheritance of the PMI-gene.
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